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作 者:张志伟 王旭东 任昱 高俊山 韩晓磊 杨朝鋆 Zhang Zhiwei;Wang Xudong;Ren Yu;Gao Junshan;Han Xiaolei;Yang Chaoyun(Xuwen Jingneng New Energy Co.,Ltd.,Zhanjiang 524000,China)
出 处:《太阳能》2022年第4期140-146,共7页Solar Energy
摘 要:随着沿海光伏电站的快速发展,光伏电站的钢结构支架长期处于高盐分、高湿度的海洋大气环境中,受到严重腐蚀。为了解决沿海光伏电站支架构件的腐蚀问题,测试4种不同配方的水性无机富锌涂料的耐腐蚀性和各项性能。结果显示:制备的新型水性无机富锌涂料的含锌量为81.7%、石墨烯纳米材料含量为0.8%时,附着力、铅笔硬度和柔韧性明显提高,涂层外观和成膜性更加完好,耐腐蚀性能大幅提升。研究结果可为沿海光伏电站钢结构支架提供可靠的防腐技术支持。With the rapid development of coastal PV power stations,the steel structure supports of PV power stations have been seriously corroded in the marine atmosphere with high salinity and humidity for a long time.In order to solve the corrosion problem of the brackets of coastal PV power station,a composite inorganic potassium silicate base solution was prepared by adding silicon-acrylic emulsion into inorganic potassium silicate solution,and the waterborne inorganic zinc-rich coatings were prepared by mixing with four formulas with different zinc powder and graphene nanomaterials content.The corrosion resistance and properties of four kinds of waterborne inorganic zinc-rich coatings were tested by neutral salt spray test,electrochemical corrosion test,electrochemical impedance spectroscopy(EIS),immersion corrosion test and performance test.The results show that when the content of zinc is 81.7% and the content of graphene nanomaterial is 0.8%,the adhesion,pencil hardness and flexibility of the new waterborne inorganic zinc-rich coatings are improved,while the coating appearance and film forming property are better and the corrosion resistance is greatly improved.It provides reliable anti-corrosion technical support for steel structure bracket of coastal PV power station.
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